Methods and Apparatus for Communication of Notifications

ABSTRACT

Methods and apparatus for communication of notifications are disclosed. A disclosed method for communicating notifications from a server to a device includes sending a primary message including data indicating notification status information; and sending notification messages apart from the primary message addressed to specific groups of devices. Similarly, another disclosed method for obtaining notifications in a device from a server includes monitoring the primary message including current notification status information, comparing the current notification information status information with a previous notification status information to determine if a change in notification status information has occurred, and obtaining addressed notification information when a change in the notification status information has been determined. By using a primary message with abbreviated information to communicate whether changes to notification information have occurred without the need for further processing and/or addressed notification messages, system resources can be conserved. Corresponding apparatus are also disclosed.

CLAIM OF PRIORITY UNDER 35 U.S.C. §119

The present application for patent claims priority to ProvisionalApplication No. 60/864,567 entitled “METHODS AND APPARATUS FOR DELIVERYOF NOTIFICATIONS” filed Nov. 6, 2006, and assigned to the assigneehereof and hereby expressly incorporated by reference herein.

REFERENCE TO CO-PENDING APPLICATIONS FOR PATENT

The present application for patent is related to the followingco-pending U.S. patent applications:

“APPARATUS AND METHODS FOR COMMUNICATING SYSTEM STATE INFORMATION CHANGETO WIRELESS DEVICES” having Attorney Docket No. 061925, filedconcurrently herewith, assigned to the assignee hereof, and expresslyincorporated by reference herein.

BACKGROUND

1. Field

The present disclosure relates generally to methods and apparatus forcommunication of notifications, and more particularly to communicationof notifications in a wireless communication system where a primarymessage communicates the presence of current notifications and anotification message communicates addressed notification information.

2. Background

In a wireless broadcast environment, such as in orthogonal frequencydivision multiplexed (OFDM) broadcast systems, wireless devices need toobtain the latest or updated system state information so that users ofsuch devices can access and receive the latest data or content over thewireless broadcast network with minimal delay. Specifically, in order toobtain the latest system state information, which may include systemnotifications intended for one or more wireless devices, each of thewireless devices needs to continuously receive and process the updatedinformation. This procedure, however, introduces significant consumptionof the wireless device power resources and, therefore, reduces itsstandby time. It is axiomatic that mobile devices by their nature havelimited power and processing resources. Thus, the requirement to obtainthe latest system state information, which utilizes processing and powerresources, introduces many challenges for power conservation in wirelessdevices.

In order to conserve processing and power resources, the co-pendingapplication entitled “APPARATUS AND METHODS FOR COMMUNICATING SYSTEMSTATE INFORMATION CHANGE TO WIRELESS DEVICES” referred to above andincorporated by reference herein, introduces the concept of a broadcastflow termed the “primary flow” having an abbreviated primary messagefrom which a device can quickly determine whether system state changeshave occurred. In particular, the primary message in the primary flowmay contain abbreviated or shorthand information for a device to quicklydetermine current system information in order to effect savings ofprocessing resources and power. Even though a primary message may reducethe amount of information needed to communicate system information,however, notification messages, which are typically broadcast in otherflows, such as a notification flow, may still be configured such thatprocessing resources are wasted by processing one or more notificationmessages that are not relevant to a particular receiving device. Thatis, the notification messages are not targeted to specific devices orgroups of receiving devices, thus a receiving device will expendresources to process notification messages even though those messagesare not applicable to the device.

SUMMARY

According to an aspect of the present disclosure, a method fordelivering notification information to one or more wireless devices isdisclosed. The method includes sending a primary message including dataindicating notification status information, and sending one or morenotification messages separate from the primary message where each ofthe one or more notification messages addressed to at least one of theone or more wireless devices.

According to another aspect, an apparatus is disclosed for conveyingsystem state information to a wireless device. The apparatus includesmeans for sending a primary message including data indicatingnotification status information. The apparatus also includes means forsending one or more notification messages separate from the primarymessage where each of the one or more notification messages addressed toat least one of the one or more wireless devices.

According to yet another aspect, a computer program product comprising acomputer-readable medium is disclosed. The computer-readable mediumincludes code for causing a computer to send a primary message includingdata indicating notification status information. The medium alsoincludes code for causing the computer to send one or more notificationmessages separate from the primary message where each of the one or morenotification messages addressed to at least one of the one or morewireless.

According to still another aspect, a server processor for conveyingsystem state information to a wireless device is disclosed. The serverprocessor includes a first module for sending a first primary messageincluding data indicating notification status information. The serverprocessor also includes a second module for sending one or morenotification messages separate from the primary message where each ofthe one or more notification messages addressed to at least one of theone or more wireless devices.

According to yet another aspect, a method for obtaining notificationinformation in a wireless device is disclosed. The method includesmonitoring a primary message including current notification statusinformation, and comparing the current notification information statusinformation with a previous notification status information to determineif a change in the notification status information has occurred.Further, the method includes obtaining at least one addressednotification information when a change in the notification statusinformation has been determined.

According to still another aspect, an apparatus for receivingnotification information disclosed including a means for monitoring aprimary message including current notification status information. Theapparatus also includes means for comparing the current notificationinformation status information with a previous notification statusinformation to determine if a change in the notification statusinformation has occurred, and means for obtaining at least one addressednotification information when a change in the notification statusinformation has been determined.

According to yet a further aspect of the present disclosure, a computerprogram product including a computer-readable medium is disclosed. Themedium includes code for causing a computer to monitor a primary messageincluding current notification status information, and code for causingthe computer to compare the current notification information statusinformation with a previous notification status information to determineif a change in the notification status information has occurred. Themedium further includes code for causing the computer to obtain at leastone addressed notification information when a change in the notificationstatus information has been determined.

According to still one more aspect, a wireless device for receivingnotification information is disclosed. The device includes a firstmodule for monitoring a primary message including current notificationstatus information. The device further includes a second module forcomparing the current notification information status information with aprevious notification status information to determine if a change in thenotification status information has occurred. Finally, the deviceincludes a third module for obtaining at least one addressednotification information when a change in the notification statusinformation has been determined.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an illustration of an exemplary end-to-end call flow diagramillustrating conveyance of primary and notification messages between aserver and device.

FIG. 2 illustrates an example of a server suitable for use in a contentdelivery system

FIG. 3 is a flow diagram of an exemplary method for deliveringnotification information to a wireless device according to an example ofthe present disclosure

FIG. 4 illustrates an exemplary format of a primary message that may beutilized in the presently disclosed apparatus and methods

FIG. 5 illustrates an example of a notification message compositeaddress format that may be utilized in the presently apparatus andmethods.

FIG. 6 illustrates a further example of a scheme for ordering addressclasses and addressing using multiple levels of filtering based ongeneralized classes.

FIG. 7 illustrates an apparatus for serving content in a wirelessnetwork.

FIG. 8 illustrates an example of a device for use in a content deliverysystem.

FIG. 9 is a flow diagram illustrating a method for obtainingnotifications in a wireless device,

FIG. 10 is a flow diagram of another example of a method for obtainingnotifications in a communication system.

FIG. 11 is another example of an apparatus for obtaining notificationsin a wireless device.

DETAILED DESCRIPTION

The present disclosure describes apparatus and methods to effect thecommunication of notification messages between a server and a device incommunication with the server. By transmitting a primary message in aprimary flow, such as with a server, where the primary message includessummarized or abbreviated data indicating whether a change innotification information has occurred, a receiving device can quicklydetermine whether it has received all the required notifications. Byprocessing this abbreviated message, rather than a more complex message,processing and power resources of the device may be economized.Accordingly, a receiving device may achieve lower battery powerconsumption, while also reducing the aggregate level of processingneeded to be performed by the device. Additionally, the multicastbandwidth required is reduced since a shorter or abbreviated message isfirst sent. Furthermore, the present disclosure introduces the use ofnotification messages within one or more notification flows, which areseparate from the primary flow, that contain particular addressinformation to target specific devices or groups of receiving devices.

FIG. 1 shows an exemplary end-to-end call flow diagram illustrating howthe presently disclosed primary message may be utilized in acommunication system utilizing a notification mechanism. As illustratedin FIG. 1, the system 100 includes an operator 102 that configuresnotifications for devices within the particular system. In particular,operator 102 is operable to configure a notification for all devicesbelonging to a particular composite address X, as illustrated by arrow104 between operator 102 and a server 106. The server 106, in turn,issues a primary message 112 in a primary flow 108 to one or moredevices, such as device 110. Primary message 112 may consist of a systemstate version number useable by device 110 to determine if system statechanges have occurred. This concept is more fully discussed inco-pending application entitled “Apparatus and Methods for CommunicatingSystem State Information Change to Wireless Devices” having AttorneyDocket No. 061925 and incorporated by reference herein.

The primary message 112 may also include a notification version numberor identifier and the total number of notifications presently available.This version number or identifier serves as a summary or abbreviatedmessage to communicate changes of the notifications in an abbreviatedmanner; namely with a short message such as a single number, as anexample, that is usable by the device 110 to quickly determine if newnotifications are presently available. As an alternative, the primarymessage may not contain the number of notifications. The informationconcerning the number of notifications could be available in anotherflow or channel or by some other suitable means. In yet anotheralternative the primary message may contain the information on the exactgroup of devices to whom notifications are targeted and the number ofnotifications for that particular group. It is further noted that theserver 106 may repeatedly broadcast the primary message 112 at apredetermined rate or frequency.

As further illustrated in FIG. 1, device 110 receives or obtains theprimary message 112 as indicated by block 114. The device 110 may thenprocess the primary message 112 to determine if further processing isnecessary, such as acquiring or reading the notification informationwithin the primary message. If the data in the primary message 112communicates to device 110 that one or more new notification messagesare present in one or more notification flows, device 110 may thenlisten to the one or more notification flows (e.g., notification flow116) sent by server 106. The notification flows are configured toinclude one or more addressed notification messages. In the example ofFIG. 1, a notification message for the particular composite address X isillustrated by message 118 in notification flow 116. The device 110listens to the notification flow 116 to obtain the notification message118 as indicated by block 120. As also indicated in block 120, thenotification message 118 for composite address X is processed by device110 at this time and may involve further requests by device 110 toserver 106, although such communication is not illustrated in FIG. 1.Additionally, it is noted that instead of listening for a notificationflow or flows (e.g., 116 as illustrated in FIG. 1), the system 100 mayalternatively be configured such that device 110 issues a unicastrequest to server 106 for a notification message to which server 106responds with a unicast transmission of the notification message.

FIG. 1 also illustrates an exemplary instance of a subsequentnotification for composite address Y issued by operator 102 to theserver 106 as indicated by arrow 122. In this instance, server 106modifies the primary flow, as indicated by primary flow 124, to includea modified primary message 106 where the notification version isincremented or updated. In the example of FIG. 1, the previousnotification version is shown as “10,” whereas the updated notificationversion after notification for composite address Y (i.e., 122) isincremented to the number “11.” Additionally, as may be seen in primarymessage 126, the number of notifications sent in primary message 126 isnow two (2). The device 110, in turn, because of regular monitoring ofthe primary flow (e.g., 124), gets the primary message (e.g., 126) asindicated by block 128 and recognizes a change in the notificationversion by comparing the previous notification version stored by device110 to the current notification version. In the example of FIG. 1, thedevice 110 then may listen to a subsequent notification flow 130, whichincludes the previously transmitted notification message for compositeaddress X as well as a second notification message 134 for devicesbelonging to the composite address Y. For purposes of this example, itis assumed that the device 110 does not belong to composite address Y.Accordingly, because the device 110 only belongs to composite address Xand not Y, the device 110 only processes the notification message 132for composite address X as shown in block 136.

Furthermore, for purposes of this example, it is assumed that operator102 may configure ending times for broadcasting particular notificationmessages (i.e., the notification messages are broadcast only for a setduration). More specifically, in this example it is assumed thatoperator 102 has configured the notification message for compositeaddresses X (i.e., message 104) to have an expiration or ending time.Accordingly, when a subsequent primary flow 138 is transmitted, it isassumed that the end time for broadcasting the notification forcomposite address X has passed or expired. Accordingly, FIG. 1illustrates a primary message 140 where the number of notificationmessages indicated by primary message 140 is now only one, yet thenotification version remains as notification version number 11. Thenotification version remains the same since no new notification messageshave been issued from operator 102, even though the notification messagefor composite address X has expired and is no longer transmitted. Thenotification flow 142 then only includes the notification message 144for devices belonging to composite address Y. Assuming the previousparameters, device 110 would get primary message 140 as indicated byblock 146. In this example, since the notification version has notchanged from the previous instance (i.e., block 128) of obtaining theprimary message, device 110 will recognize that the notification versionhas not changed, in turn conclude that it is up to date onnotifications, and not expend further resources for processingnotifications.

FIG. 2 shows an example of a content provider server 200 suitable foruse in a content delivery system. This server may be one example of aserver that may be used as server 102 in FIG. 1. As shown in FIG. 2,server 200 includes processing logic 202, resources and interfaces 204,and transceiver logic 210, all of which are coupled to an internal databus 212. The server 200 also includes activation logic 214, systeminformation (SI) 206, and SI records logic 208, which are also coupledto the data bus 212.

In one or more examples, the processing logic or module 202 may includea CPU, processor, gate array, hardware logic, memory elements, virtualmachine, software, and/or any combination of hardware and software.Thus, the processing logic 202 generally includes logic to executemachine-readable instructions and to control one or more otherfunctional elements of the server 200 via the internal data bus 212.

The resources and interfaces module 204 may be implemented by hardware,software, or a combination thereof that allows the server 200 tocommunicate with internal and external systems. For example, theinternal systems may include mass storage systems, memory, displaydriver, modem, or other internal device resources. The external systemsmay include user interface devices, printers, disk drives, or otherlocal devices or systems, as examples.

Transceiver logic or module 210 may include hardware logic and/orsoftware that operates to allow the server 200 to transmit and receivedata and/or other information with remote devices or systems using acommunication channel 216. For example, in one example, communicationchannel 216 may consist of any suitable type of communication link toallow the server 200 to communicate with a data network. It is notedthat in the context of the system of FIG. 1, communication channel 216may be utilized to effect delivery of the primary flow and notificationflow(s) between the server (e.g., server 106) and a device (e.g., device110).

The activation logic or module 214 may include a CPU, processor, gatearray, hardware logic, memory elements, virtual machine, software,and/or any combination of hardware and software. The activation logic214 operates to activate a server allowing the server to select andreceive content and/or services described in the system informationmodule 206, for example.

FIG. 3 illustrates a method for delivering notification information to awireless device according to an example of the present disclosure. Themethod 300 begins at a start block 302 and proceeds to block 304. Atblock 304 primary message is sent that includes data indicatingnotification status information. It is noted that this procedure inblock 304 may include sending at least the notification version numberand may also include sending the number of notifications as wasdiscussed previously in connection with FIG. 1. It is further noted thatserver 106 or 200 as discussed previously may effect the process ofblock 304. Further, in connection with the server 200 illustrated inFIG. 2 it is noted that the procedure of block 304 may be implementedthrough one or more of processing logic 202, system information 206, andtransceiver logic 210, as examples from FIG. 2.

After the primary message is sent in block 304, flow proceeds to block306 where one or more notification messages to specific devices aresent. Notification messages such as 118, 132, 134, or 144 shown in FIG.1 include a specific targeted address targeting those devices to whichthe notification message is pertinent or relevant. Server 106 or server200, as discussed previously may implement the procedure in block 306.In particular, concerning the example of server 200 in FIG. 2, thisprocedure may be effected by processing logic 202, transceiver logic 210and system information 206, as examples.

After the procedure of block 306, flow proceeds to block 308 whereprocedure 300 ends. It is noted, however, that the primary message andnotification messages may be continuously sent at periodic intervals aswas discussed in the example of FIG. 1. Additionally, the primarymessage is sent in a primary flow and the notification messages are sentseparate from the primary message in a notification flow as illustratedin FIG. 1.

FIG. 4 illustrates an exemplary format of a primary message that may beutilized in the presently disclosed apparatus and methods. As shown, theprimary message 400 includes various fields including a primary versionfield 402. This field is more fully discussed in the cop-pendingapplication entitled “Methods and Apparatus for Communicating SystemState Information to Wireless Devices,” which is expressly incorporatedby reference herein. Field 402 may consist of a version number, which isused by a receiving device, such as device 110, to quickly determinewhether system state changes, such as changes in notifications, haveoccurred. If the primary message version has changed, thus indicating asystem state change, device 110 may then process further informationfields within the primary message 400, such as a notification versionfield 404. It is field 404 that communicates the notification versionnumber to a device, such as device 110, enabling the device to quicklycompare the current notification version with a previously storedversion to determine if an operator has issued any notificationmessages. The primary message 400 also includes a number ofnotifications field 406, which communicates to receiving devices thecurrent number of notifications being sent in a notification flow. Asillustrated, the primary message 400 may also contain various otherfields as indicated by fields 408.

FIG. 5 illustrates an example of a notification message compositeaddress format that may be utilized in the presently disclosed apparatusand methods. As illustrated, the notification message 500 may include anaddress class 502 and an accompanying field indicating a group address504. The address class 502 identifies the type of composite address andthe group address 504 identifies the exact group of devices within thecorresponding address class. For example, an address class can identifythat a composite address addresses a group of devices subscribed to aservice provider. A group address along with that address class canidentify a group of devices subscribed to a particular service provider,such as Verizon, as an example. In another example, an address class canidentify that a composite address addresses a group of devicessubscribed to a channel. A group address along with that address classcan identify a group of devices subscribed to a particular channel, suchas MTV, for example. In addition to the composite address, thenotification message 500 may also contain data for the target group,such as text, picture, or video or multimedia.

As shown in FIG. 5, the number of address classes may be any number one(1) through an n number of classes. FIG. 5 shows an exemplary list ofaddress classes 502 and corresponding group addresses 504. As an exampleillustrated with reference to fields 506 and 508, a notification messagecould be targeted to a composite address (1,10), for example. Thus, thisexemplary notification addresses a group having address 10 from a rangeof addresses 0 . . . 255 and within address class 1. As another examplewith reference to fields 510 and 512, a notification message could betargeted to a composite address (2, 30000) where the notificationaddress a group having address 30000 from a range of address 0 . . .66535 within address class 2.

FIG. 6 illustrates a further example of a composite address scheme 600for ordering address classes and addressing using multiple levels offiltering based on generalized classes. In particular, the addresscomposite address includes a particular address class indicated bycolumn under heading 602, an address class value shown under heading 604and an address field shown under heading 606. Examples of the types ofaddress classes under heading 602 include a global address, billing andcustomer service provider class, content retailer class, package, tier,service, flow, and network application as examples. As may be seen inthe table of FIG. 6, each of the address classes has a specified addressclass value corresponding to the address class. Examples of the addressclass values are illustrated in the column under heading 604.

Turning back to the example discussed above in connection with FIG. 5where a composite address had a value (1,10), a corollary example may bemade here in connection with FIG. 6. In particular, FIG. 6 shows anexemplary list of address classes 602. Accordingly, the notificationmessage with composite address (1,10) would be targeted to devices thatare subscribed to a “service provider” (i.e., address class 1 (e.g.,0x01)) having a group address value of 10.

It is noted that the configuration of the scheme 600 affords a secondlevel of filtering by including an address field (see heading 606) withidentification information further targeting one or more devices withfurther identification information. For example, in the address classconsisting of the billing and customer service provider (see field 608),an address class value 0x01 relates to the particular address class. Byfurther specifying a particular provider identification in the addressfield (see field 610), the second level of filtering can beaccomplished. For example, in the case of a billing and customer serviceprovider identification, an address or the address field could be 0xA0to designate a service provider such as Verizon, whereas another serviceprovider such as Cingular could have a different address such as 0xA1.Accordingly, when a notification in the billing and service provideraddress class is intended for Verizon, the address field would includefurther addressing to alert or inform only Verizon customers or usersthat a notification is extant for those users.

It is further noted that the composite address format is extensible inthat yet further narrowed targeting of groups of devices may beeffected. For example, the composite address could be extended to covergroups having more than one attribute, such as all Verizon users in SanDiego subscribed to a Sports package but not a Movie package. As anotherexample, further targeted addressing could be accomplished by performinga logical operation, such as AND and OR operations, with the addressclass and the address field as the operands in a logical operation thatyields the targeted address. As yet another example, the compositeaddress could be configured as a string address.

It is yet further noted here that in the example of FIG. 1, thecomposite message for address X is configurable according to either ofthe addressing format schemes illustrated in FIG. 5 or 6 to targetspecific groups of devices. Moreover, it is noted that FIG. 5 and FIG. 6are merely exemplary, and that any number of different address classesmay be contemplated by those skilled in the art.

FIG. 7 illustrates an apparatus for serving content in a wirelessnetwork. As illustrated the apparatus may be a server 700 or serverprocessor that includes a module for sending a primary message includingdata indicating notification status information 702. Module 702 may beimplemented by one or more of the various modules illustrated in FIG. 2,for example. The primary message may be configured similar to themessage 400 illustrated in FIG. 4. Accordingly, the primary messagewould include a notification version as well as the number ofnotifications, as an example.

The module 702 transmits the primary message to one or more user devicesvia a primary flow communication 704. Module 702 may be in communicationwith a module 708 for sending at least one notification message to oneor more receiving devices, where the at least one notification messageis an addressed notification message targeting one or more specificdevices. Modules 702 and 708 may be in communication as indicated bycoupling 706, although this is not necessary for implementation ofserver 700. Notification messages sent by module 708 include addressednotification message(s) such as those illustrated by the compositeaddresses of FIG. 5 or FIG. 6, as examples. The notification messagesare sent via a notification flow or flows 710 to one or more userdevices. It is noted that module 708 may be implemented by one or moreof the various modules illustrated in FIG. 2. The apparatus 700 may alsoinclude a module 712, which is shown with broken lines, for modifyingthe notification status information when a change in the notificationinformation occurs. Module 712 may, for example, be an interface with anoperator, such as operator 102 in FIG. 1, that communicates the changein notification information to module 702 and/or module 708 via acommunication couplings 714 and 716, respectively, to change the primaryflow (704) and the notification flows (710).

FIG. 8 shows an example of a device 800 suitable for use in a contentdelivery system. For example, device 800 may be the device 110 shown inFIG. 1. Device 800 includes processing logic 802, resources andinterfaces 804, and transceiver logic 806, all coupled to a data bus808. The device 800 also comprises a client 810, a program logic 814 anda SI logic 812, which are also coupled to the data bus 808.

In one or more examples, the processing logic 802 may be implemented bya CPU, processor, gate array, hardware logic, memory elements, virtualmachine, software, and/or any combination of hardware and software.Thus, the processing logic 802 generally comprises logic configured toexecute machine-readable instructions and to control one or more otherfunctional elements of the device 800 via the internal data bus 808.

The resources and interfaces 804 comprise hardware and/or software thatallow the device 800 to communicate with internal and external systems.For example, internal systems may include mass storage systems, memory,display driver, modem, or other internal device resources. The externalsystems may include user interface devices, printers, disk drives, orother local devices or systems.

The transceiver logic 806 comprises hardware and/or software thatoperate to allow device 800 to transmit and receive data and/or otherinformation with external devices or systems, such as server 106 or 200shown in FIGS. 1 and 2, through communication channel 814. Communicationchannel 814 may comprise a network communication link, a wirelesscommunication link, or any other type of communication link, asexamples.

During operation, device 800 is activated so that it may receiveavailable content or services over a data network. For example, thedevice 800 may identify itself to a content provider server during anactivation process. As part of the activation process, device 800receives and stores SI records by SI logic 812. The SI logic 812contains information that identifies content or services available forthe device 800 to receive. The client 810 operates to render informationin the SI logic 812 on the device 800 using the resources and interfaces804. For example, the client 810 may render information in the SI logic812 on a display screen (not shown) that is part of device 800. Theclient 810 also receives user input through the resources and interfacesso that a device user may select content or services.

FIG. 9 is a flow diagram illustrating a method for obtaining anotification in a wireless device, such as device 110 or 800. Asillustrated, the process 900 begins at a start block 902 and flow thenproceeds to block 904. At block 904, a primary message, which includescurrent notification status information, is monitored. As explainedpreviously, the notification status information is contained in theprimary message, such as field 404 in message 400 and may consist of anotification version number.

At block 906, the current notification information status information iscompared with a previous notification status information to determine ifa change in notification status information has occurred. As discussedpreviously, the process of block 906 may consist of the device comparingthe current notification version number against a previously storedversion number to quickly determine whether changes have occurred towarrant further acquisition of the actual notification information.After the process of block 906, flow proceeds to block 908 where atleast one addressed notification information is obtained when a changein the notification status information has been determined 908. It isnoted that an example of the process of block 908 may be listening tothe notification flow to obtain the addressed notification message(s)within the flow that pertain to the particular device. After the one ormore notification messages are obtained, flow proceeds to block 910where the process 900 ends. It is noted that the although process 900 isshown with start and end blocks, the process 900 may be repeatedperiodically at a predetermined time interval by a device. It is furthernoted that the device 110 in FIG. 1, device 800 in FIG. 8, or apparatus1100, which will be discussed later in connection with FIG. 11, mayimplement process 900.

FIG. 10 is a flow diagram of another example of a method for obtainingnotifications in a communication system. As illustrated, the method 1000starts at block 1002, where a primary message is received or monitoredat a device, the primary message including a notification versionnumber. Flow proceeds to decision block 1004 where a determination ismade whether the notification version number stored in the device is thesame as the currently transmitted notification version number containedin the primary message. If so, this indicates that no changes to thenotifications have occurred and the process 1000 as indicated by endblock 1008.

Alternatively, if the notification version has changed, the device willlisten to the notification flow. Flow then proceeds from block 1004 todecision block 1006. Here, the device may determine if the currentnumber of notification messages in the primary message is equal to zero(0). This situation may arise, for example, if an operator issues anotification of limited duration to the server, thus engendering achange in the notification version number. If the device was not turnedon or receiving during the limited duration, the situation may arisewhere the notification version number has changed from a versioncurrently stored in a device, but the number of notification messages iszero since the message have expired. If the condition of block 1006 istrue, flow again proceeds to end block 1008 since no messages needs tobe processed. It is noted that the process 1000 is ended until a nextmonitoring period of the device, at which time process 1000 is repeated.

If the condition of block 1006 is negative, flow proceeds to block 1010where the device may determine what number n of present notificationmessages are extant from the primary message. That is, the number ofnotifications indicated in the primary message (e.g., field 406) can beutilized to determine the number n notifications. Alternatively, thenumber n of notifications could be communicated through other means,such as another message besides the primary message, or by any othersuitable means

After block 1010, flow proceeds to block 1012 where a count i isinitialized to a value of one (1). Flow next proceeds to decision block1014 for a determination of whether the device should process an i^(th)notification message. That is, based on the state of the device (e.g.,current location of the device, channel subscription list, etc.) or userpreference (e.g., user might have voluntarily selected to receivenotification about another location or another service), the deviceprocesses the notifications. The device uses the composite address inthe notification message to determine whether the message is relevant tothe device and should be processed. If the message is relevant, flowproceeds to block 1016 where the device processes the addressednotification message further. After processing or a start of processingin block 1016, flow proceeds to block 1018. Alternatively at block 1014,if the message is not relevant to device, such as in the example ofblock 136 in FIG. 1, flow proceeds directly from block 1014 to 1018.

In block 1018, the count i is incremented by a count of one (1) and flowthen proceeds to decision block 1020. At block 1020 a determination ismade whether the current value of count i is less than or equal to thetotal number n of notifications. If yes, flow loops back to block 1014where the relevancy of the next i^(th) message is determined. Once allnotifications have been received, as determined by a “no” conclusion inblock 1020, and the requisite or relevant notifications processed, thedevice will store the notification version received from the primarymessage, as indicated by block 1022. Flow proceeds to block 1024 wherethe process 1000 ends until repeated at a next monitoring period, forexample. It is noted that the process 1000 may be implemented by may beimplemented by the device 110 in FIG. 1, device 800 in FIG. 8, orapparatus 1100, which will be discussed below.

FIG. 11 illustrates another apparatus 1100 for obtaining notificationsin a wireless device. As shown, the apparatus includes a module 1102 formonitoring a primary message including current notification statusinformation. Module 1102 may be implemented, for example, by any one ormore of the modules illustrated in device 800 in FIG. 8. Module 1102 isin communication with a module 1104 via a communication link 1106.Module 1104 is used for comparing the current notification informationstatus information with previous notification status information todetermine if a change in notification status information has occurred.As an example, the notification status information may include anotification version number, which module 1104 compares with apreviously stored notification version number. If a difference or changeis detected, module 1104 communicates with a module 1108 via acommunication link 1110.

Module 1108 is configured to monitor or receive a notification flow andobtain at least one addressed notification information when the changein the notification status information has been determined by module1104. Examples of this operation effected by module 1108 includereceiving a notification message with a composite address, such as thoseillustrated in FIGS. 5 and 6, determining if the addressed message isrelevant to a device in which apparatus 1100 is implemented, andprocessing the notification message when the message is relevant, as wasdiscussed in connection with the method in FIG. 10 above. It is notedthat the modules 1104 and 1108 may be implemented by any one or more ofthe modules illustrated in device 800 in FIG. 8, as an example.

It is understood that the specific order or hierarchy of steps in theprocesses disclosed is an example of exemplary approaches. Based upondesign preferences, it is understood that the specific order orhierarchy of steps in the processes may be rearranged while remainingwithin the scope of the present disclosure. The accompanying methodclaims present elements of the various steps in a sample order, and arenot meant to be limited to the specific order or hierarchy presented.

Those skilled in the art will appreciate that information and signalsmay be represented using any of a variety of different technologies andtechniques. For example, data, instructions, commands, information,signals, bits, symbols, and chips that may be referenced throughout theabove description may be represented by voltages, currents,electromagnetic waves, magnetic fields or particles, optical fields orparticles, or any combination thereof.

Those of skill would further appreciate that the various illustrativelogical blocks, modules, circuits, and algorithm steps described inconnection with the embodiments disclosed herein may be implemented aselectronic hardware, computer software, or combinations of both. Toclearly illustrate this interchangeability of hardware and software,various illustrative components, blocks, modules, circuits, and stepshave been described above generally in terms of their functionality.Whether such functionality is implemented as hardware or softwaredepends upon the particular application and design constraints imposedon the overall system. Skilled artisans may implement the describedfunctionality in varying ways for each particular application, but suchimplementation decisions should not be interpreted as causing adeparture from the scope of the present disclosure.

The various illustrative logical blocks, modules, and circuits describedin connection with the embodiments disclosed herein may be implementedor performed with a general purpose processor, a digital signalprocessor (DSP), an application specific integrated circuit (ASIC), afield programmable gate array (FPGA) or other programmable logic device,discrete gate or transistor logic, discrete hardware components, or anycombination thereof designed to perform the functions described herein.A general purpose processor may be a microprocessor, but in thealternative, the processor may be any conventional processor,controller, microcontroller, or state machine. A processor may also beimplemented as a combination of computing devices, e.g., a combinationof a DSP and a microprocessor, a plurality of microprocessors, one ormore microprocessors in conjunction with a DSP core, or any other suchconfiguration.

The processes of a method or algorithm described in connection with theembodiments disclosed herein may be embodied directly in hardware, in asoftware module executed by a processor, or in a combination of the two.A software module may reside in RAM memory, flash memory, ROM memory,EPROM memory, EEPROM memory, registers, hard disk, a removable disk, aCD-ROM, or any other form of storage medium known in the art. Anexemplary storage medium (not shown) is coupled to the processor suchthe processor can read information from, and write information to, thestorage medium. In the alternative, the storage medium may be integralto the processor. The processor and the storage medium may reside in anASIC. The ASIC may reside in a user terminal. In the alternative, theprocessor and the storage medium may reside as discrete components in auser terminal.

The examples described above are merely exemplary and those skilled inthe art may now make numerous uses of, and departures from, theabove-described examples without departing from the inventive conceptsdisclosed herein. Various modifications to these examples may be readilyapparent to those skilled in the art, and the generic principles definedherein may be applied to other examples, e.g., in an instant messagingservice or any general wireless data communication applications, withoutdeparting from the spirit or scope of the novel aspects describedherein. Thus, the scope of the disclosure is not intended to be limitedto the examples shown herein but is to be accorded the widest scopeconsistent with the principles and novel features disclosed herein. Itis noted that the word “exemplary” is used exclusively herein to mean“serving as an example, instance, or illustration.” Any exampledescribed herein as “exemplary” is not necessarily to be construed aspreferred or advantageous over other examples. Accordingly, the novelaspects described herein are to be defined solely by the scope of thefollowing claims.

1. A method for delivering notification information to one or morewireless devices, comprising: sending a primary message comprising dataindicating notification status information; and sending one or morenotification messages separate from the primary message, each of the oneor more notification messages addressed to at least one of the one ormore wireless devices.
 2. The method as defined in claim 1, wherein thenotification status information comprises a current notificationversion.
 3. The method as defined in claim 2, wherein the currentnotification version is a number configured to communicate changes inthe notification information to the one or more wireless devices in anabbreviated manner.
 4. The method as defined in claim 1, wherein thenotification status information comprises a notification numberindicating a number of the one or more notification messages.
 5. Themethod as defined in claim 1, wherein the one or more notificationmessages comprise at least first address information corresponding to arespective address class and second address information corresponding toparticular groups of wireless devices.
 6. The method as defined in claim5, wherein the second address information corresponds to a one or moregroup addresses within the respective address class.
 7. The method asdefined in claim 5, wherein the second address information is furtherconfigured to communicate notification data to one or more wirelessdevices.
 8. The method as defined in claim 1, further comprising:modifying the notification status information when a change in thenotification information occurs.
 9. An apparatus for conveying systemstate information to a wireless device, comprising: means for sending aprimary message comprising data indicating notification statusinformation; and means for sending one or more notification messagesseparate from the primary message, each of the one or more notificationmessages addressed to at least one of the one or more wireless devices.10. The apparatus as defined in claim 9, wherein the notification statusinformation comprises a current notification version.
 11. The apparatusas defined in claim 10, wherein the current notification version is anumber configured to communicate changes in the notification informationto the one or more wireless devices in an abbreviated manner.
 12. Theapparatus as defined in claim 9, wherein the notification statusinformation comprises a notification number indicating a number of theone or more notification messages.
 13. The apparatus as defined in claim9, wherein the one or more notification messages comprise at least firstaddress information corresponding to a respective address class andsecond address information corresponding to particular groups ofdevices.
 14. The apparatus as defined in claim 13, wherein the secondaddress information corresponds to one or more group addresses withinthe respective address class.
 15. The apparatus as defined in claim 13,wherein the second address information is further configured tocommunicate notification data to one or more wireless devices
 16. Theapparatus as defined in claim 9, further comprising: means for modifyingthe notification status information when a change in the notificationinformation occurs.
 17. A computer program product, comprising: acomputer-readable medium comprising: code for causing a computer to senda primary message comprising data indicating notification statusinformation; and code for causing the computer to send one or morenotification messages separate from the primary message, each of the oneor more notification messages addressed to at least one of the one ormore wireless.
 18. The computer program product as defined in claim 17,wherein the notification status information comprises a currentnotification version.
 19. The computer program product as defined inclaim 18, wherein the current notification version is a numberconfigured to communicate changes in the notification information to theone or more wireless devices in an abbreviated manner.
 20. The computerprogram product as defined in claim 17, wherein the notification statusinformation comprises a notification number indicating a number of theone or more notification messages.
 21. The computer program product asdefined in claim 17, wherein the one or more notification messagescomprise at least first address information corresponding to arespective address class and second address information corresponding toparticular groups of devices.
 22. The computer program product asdefined in claim 21, wherein the second address information correspondsto one or more group addresses within the respective address class. 23.The computer program product as defined in claim 21, wherein the secondaddress information is further configured to communicate notificationdata to one or more wireless devices.
 24. The computer program productas defined in claim 17, the computer-readable medium further comprisingcode for causing the computer to modify the notification statusinformation when a change in the notification information occurs.
 25. Aserver processor for conveying system state information to a wirelessdevice, comprising: a first module for sending a first primary messagecomprising data indicating notification status information; and a secondmodule for sending one or more notification messages separate from theprimary message, each of the one or more notification messages addressedto at least one of the one or more wireless devices.
 26. The serverprocessor as defined in claim 25, wherein the notification statusinformation comprises a current notification version.
 27. The serverprocessor as defined in claim 26, wherein the current notificationversion is a number configured to communicate changes in thenotification information to the one or more wireless devices in anabbreviated manner.
 28. The server processor as defined in claim 25,wherein the notification status information comprises a notificationnumber indicating a number of the one or more notification messages. 29.The server processor as defined in claim 25, wherein the one or morenotification messages comprise at least first address informationcorresponding to a respective address class and second addressinformation corresponding to particular groups of devices.
 30. Theserver processor as defined in claim 29, wherein the second addressinformation corresponds to one or more group addresses within therespective address class.
 31. The server processor as defined in claim29, wherein the second address information is further configured tocommunicate notification data to one or more wireless devices
 32. Theserver processor as defined in claim 25, further comprising: a thirdmodule for modifying the notification status information when a changein the notification information occurs.
 33. A method for obtainingnotification information in a wireless device, comprising: monitoring aprimary message comprising current notification status information;comparing the current notification information status information with aprevious notification status information to determine if a change in thenotification status information has occurred; and obtaining at least oneaddressed notification information when a change in the notificationstatus information has been determined.
 34. The method as defined inclaim 33, wherein the notification status information comprises acurrent notification version that is compared with a previousnotification version of the previous notification status information.35. The method as defined in claim 33, wherein obtaining the at leastone addressed notification information comprises monitoring anotification flow containing the at least one addressed notificationinformation.
 36. The method as defined in claim 33, wherein the at leastone addressed notification message comprises at least first addressinformation corresponding to a respective address class and secondaddress information corresponding to one or more group addresses withinthe address class.
 37. The method as defined in claim 33, furthercomprising: determining a number of notification messages of the atleast one addressed notification information.
 38. The method as definedin claim 37, further comprising: determining the number of notificationmessages from the primary message.
 39. The method as defined in claim33, further comprising: determining if the at least one addressednotification information is relevant to the wireless device; andprocessing the at least one addressed notification information when theinformation is determined to be relevant to the wireless device.
 40. Anapparatus for receiving notification information, comprising: means formonitoring a primary message comprising current notification statusinformation; means for comparing the current notification informationstatus information with a previous notification status information todetermine if a change in the notification status information hasoccurred; and means for obtaining at least one addressed notificationinformation when a change in the notification status information hasbeen determined.
 41. The apparatus as defined in claim 40, wherein thenotification status information comprises a current notification versionthat is compared with a previous notification version of the previousnotification status information.
 42. The apparatus as defined in claim40, wherein the means for obtaining the at least one addressednotification information comprises means for monitoring a notificationflow containing the at least one addressed notification information. 43.The apparatus as defined in claim 40, wherein the at least one addressednotification message comprises at least first address informationcorresponding to a respective address class and second addressinformation corresponding to one or more group addresses within anaddress class.
 44. The apparatus as defined in claim 40, furthercomprising: means for determining a number of notification messages ofthe at least one addressed notification information.
 45. The apparatusas defined in claim 44, further comprising: means for determining thenumber of notification messages from the primary message.
 46. Theapparatus as defined in claim 40, further comprising: means fordetermining if the at least one addressed notification information isrelevant to the wireless device; and means for processing the at leastone addressed notification information when the information isdetermined to be relevant to the wireless device.
 47. A computer programproduct, comprising: computer-readable medium comprising: code forcausing a computer to monitor a primary message comprising currentnotification status information; code for causing the computer tocompare the current notification information status information with aprevious notification status information to determine if a change in thenotification status information has occurred; and code for causing thecomputer to obtain at least one addressed notification information whena change in the notification status information has been determined. 48.The computer program product as defined in claim 47, wherein thenotification status information comprises a current notification versionthat is compared with a previous notification version of the previousnotification status information.
 49. The computer program product asdefined in claim 47, wherein the computer-readable medium furthercomprises: code for causing a computer to obtain the at least oneaddressed notification information by monitoring a notification flowcontaining the at least one addressed notification information.
 50. Thecomputer program product as defined in claim 47, wherein the at leastone addressed notification message comprises at least first addressinformation corresponding to a respective address class and secondaddress information corresponding to one or more group addresses withinan address class.
 51. The computer program product as defined in claim47, wherein the computer-readable medium further comprises: code forcausing a computer to determine a number of notification messages of theat least one addressed notification information.
 52. The computerprogram product as defined in claim 51, wherein the computer-readablemedium further comprises: code for causing a computer to determine thenumber of notification messages from the primary message.
 53. Thecomputer program product as defined in claim 51, wherein thecomputer-readable medium further comprises: code for causing a computerto determine the number of notification messages by monitoring anotification flow containing one or more notification messages if achange in the notification status information has been determined. 54.The computer program product as defined in claim 47, wherein thecomputer-readable medium further comprises: code for causing a computerto determine if the at least one addressed notification information isrelevant to the wireless device; and code for causing a computer toprocess the at least one addressed notification information when theinformation is determined to be relevant to the wireless device.
 55. Awireless device for receiving notification information, comprising: afirst module for monitoring a primary message comprising currentnotification status information; a second module for comparing thecurrent notification information status information with a previousnotification status information to determine if a change in thenotification status information has occurred; and a third module forobtaining at least one addressed notification information when a changein the notification status information has been determined.
 56. Thedevice as defined in claim 55, wherein the notification statusinformation comprises a current notification version that is comparedwith a previous notification version of the previous notification statusinformation.
 57. The device as defined in claim 55, wherein obtainingthe at least one addressed notification information comprises monitoringa notification flow containing the at least one addressed notificationinformation.
 58. The device as defined in claim 55, wherein the at leastone addressed notification message comprises at least first addressinformation corresponding to a respective address class and secondaddress information corresponding to one or more group addresses withinan address class.
 59. The device as defined in claim 55, furthercomprising: a fourth module for determining a number of notificationmessages of the at least one addressed notification information.
 60. Thedevice as defined in claim 59, further comprising: a fifth module fordetermining the number of notification messages from the primarymessage.
 61. The device as defined in claim 55, further comprising: afourth module for determining if the at least one addressed notificationinformation is relevant to the wireless device; and a fifth module forprocessing the at least one addressed notification information when theinformation is determined to be relevant to the wireless device.